Programmable Humidity-Responsive Actuation of Polymer Films Enabled by Combining Shape Memory Property and Surface-Tunable Hygroscopicity

材料科学 变形 形状记忆合金 湿度 水分 聚合物 智能材料 形状记忆聚合物 智能聚合物 复合材料 执行机构 丙烯酸 纳米技术 共聚物 计算机科学 人工智能 物理 热力学 计算机视觉
作者
Yuhua Ge,Hanxiao Wang,Jieying Xue,Jinqiang Jiang,Zhao‐Tie Liu,Zhong‐Wen Liu,Guo Li,Yue Zhao
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:13 (32): 38773-38782 被引量:55
标识
DOI:10.1021/acsami.1c11862
摘要

Most humidity-responsive polymeric actuators can only exhibit shape transformations between a planar shape in the dry state and a bended three-dimensional (3D) shape when exposed to moisture, and it is challenging to design and prepare hygroscopic actuators with programmable actuating behaviors displayed from sophisticated 3D structures. Herein, we demonstrate that the integration of shape memory property and surface treatment enabled hygromorphic responsivity endows a single-component polymer film with programmable moisture-driven actuating behaviors. The solvent-processed polyethylene-co-acrylic acid (EAA) copolymer film is soft and stretchable at room temperature, and has a good thermal-responsive shape memory property. By surface treatment using base/acid solutions, the reversible gradient conversion between carboxyl groups and carboxylate salts along the thickness direction enables the film to exhibit designed hygroscopic actuations. The shape memory property and moisture-driven actuating behaviors can be combined to realize 3D-3D morphing by first programming the films into 3D shapes and then conducting the surface treatments. Both shape programming and surface treatment processes can be reprogrammed to make the actuation behavior readily tunable. We also show that the created surface patterns can act as moisture-sensitive conducting paths to detect human breathes, and the combination of shape memory, moisture-responsive morphing and conductivity change leads to some interesting applications such as smart switch in conducting circuit. This work provides a new and general strategy for the design of advanced humidity-responsive actuators.
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